Chemical Compounds
Field Effect
100%
Solar Cell
77%
Aza-Michael Addition
61%
Stille Cross Coupling
49%
Band Gap
44%
Donor
44%
Conjugated Polymer
33%
Perylenediimide
33%
Organocatalysis
33%
Semiconductor
31%
Application
31%
Fullerene
30%
Nanoshell
30%
Copolymer
29%
Inhibition of Growth
29%
Rotaxane
28%
Catalysis
28%
Rhodamine B
28%
Charge Transfer Interaction
27%
Azole
27%
Photovoltaic Effect
26%
Perylene
25%
Doxorubicin
23%
Phthalocyanine
22%
Quinoline
22%
Liquid Film
21%
Self Assembled Monolayer
21%
Dopamine
21%
Iron Oxide
21%
Antitumor
20%
Naphthalene
20%
Alkaloid
20%
Antineoplastic Agent
19%
Dielectric Material
19%
Intermolecular Force
19%
Composite Material
18%
Thienothiophene
17%
Meso Porosity
17%
Methicillin
16%
Hydrogenation
16%
Polymerization Reaction
16%
Quantum Dot
15%
Antimicrobial Agent
15%
Thermal Stability
14%
Carbon Atom
14%
Stille Reaction
14%
Thiophene
14%
Suzuki Cross Coupling
14%
Catalyst
13%
Ester
13%
Alcohol
13%
Electron Mobility
13%
Monomer
13%
Nanosphere
13%
Visible Spectrum
12%
Environment
12%
Malononitrile
12%
Antibacterial Agent
12%
Energy
12%
Minimum Inhibitory Concentration
12%
UV Absorption
12%
Electron Particle
12%
Compound Mobility
11%
Nanoparticle
11%
Absorptivity
10%
[2]rotaxane
10%
Polycondensation
10%
Nanocomposite
9%
Antibacterial
9%
Copolymerization
9%
Crystallinity
8%
Adduct
8%
Cyclic Voltammetry
7%
Drug
7%
Molecular Structure
7%
Nanomaterial
7%
Anthracene
7%
Surface
7%
Rod Like Crystal
6%
Hydrothermal Method
6%
Macrocycle
6%
Leaching
6%
Solar Power
6%
Nucleophile
6%
Nanorod
6%
Reaction Yield
6%
Ambient Reaction Temperature
6%
Amorphous Material
6%
Nanocrystal
6%
Reduction
5%
Engineering & Materials Science
Polymers
98%
Organic solar cells
96%
Heterojunctions
92%
Polymer solar cells
78%
Conversion efficiency
68%
Fullerenes
52%
Thiophene
49%
Nucleophiles
46%
Nanoshells
39%
Addition reactions
39%
Charge transfer
38%
Organic field effect transistors
37%
Polycondensation
35%
Self assembled monolayers
34%
Silver nanoparticles
32%
Gate dielectrics
31%
Composite films
31%
Naphthalene
31%
Optical band gaps
29%
Iron oxides
29%
Conformations
28%
Catalyst activity
27%
Liver
26%
Copolymers
26%
Monomers
26%
Electrons
26%
Alcohols
24%
Field effect transistors
23%
Solar cells
23%
Crystalline materials
23%
Magnetic resonance
23%
Thermodynamic stability
23%
Tumors
23%
Nanospheres
22%
Surface properties
22%
Nitrogen
20%
Catalysts
18%
Electron mobility
17%
Satellites
17%
Imaging techniques
17%
Composite materials
15%
Molecular structure
14%
Thin films
14%
Crystallinity
13%
Theranostics
10%
Silanes
9%
Thin film transistors
9%
Optoelectronic devices
8%
Silica
8%
Solubility
8%
Polymer matrix
6%
Carbon
6%
Solar energy
6%
Blood vessels
6%
Molecular orbitals
6%
Electronic equipment
6%
Organic compounds
6%
Hole mobility
6%
Calcination
5%
Thermal stress
5%
Molecules
5%
Electrochemical properties
5%
Pore size
5%
Medicine & Life Sciences
Rotaxanes
44%
silicon phthalocyanine
43%
1,2,3,4-tetrahydroquinoline
42%
Polymers
40%
rhodamine B
35%
Oxyquinoline
35%
quinoline
32%
Azoles
28%
Hepatocellular Carcinoma
25%
Alkaloids
24%
Optical Imaging
24%
Esters
22%
2-methylquinoline
22%
Carbon
22%
Semiconductors
21%
Quantum Dots
20%
Staphylococcus aureus
19%
Nude Mice
19%
anthracene
16%
Graphite
15%
Anti-Bacterial Agents
14%
Toxicology
14%
Neoplasms
14%
Heterografts
14%
Methicillin
13%
Temperature
12%
Microbial Sensitivity Tests
11%
1,2,3,4-tetrahydroquin-8-ol
11%
Cell Cycle Checkpoints
10%
Polymerization
9%
Fluorescence
9%
Necrosis
8%
Direction compound
8%
Light
7%
Hydrogenation
7%
Growth
5%